CS248334B1 - Magnetická dvojhlava - Google Patents

Abstract

The design solution of the magnetic double head is intended especially for multi-track magnetic double heads with digital recording. It solves in a very simple way the easy aiming of optical or mechanical devices at the reference elements of the magnetic head, which are their working slots and reference surfaces of the cores of magnetic circuits in all phases of the production process, the essence of the solution is the continuous or local relief of the corners of the middle part, carrying parts of the magnetic circuits of the "I" shape. As a result, the adjacent housings, carrying parts of the magnetic circuits of the "C" shape, have exposed parts of the drain surfaces, identical to the edges of the respective working slots. The reference elements of the cores fit with a certain surface of the groove* whose intersections in the bases of the magnetic head can be aimed without interference, just like the edges of the exposed parts of the contact holes located on the front of the magnetic head.

Description

The present invention relates to the construction of a magnetic double head which, by arranging some elements of the central part and the sleeves, makes it easy to locate the position of the slots in the frontal and planar arrangement.

Magnetic double heads of various kinds are provided with various forms of faces, which are usually in contact with a magnetic strip, as a carrier of information for their good function.

The individual face shapes are adapted to the functions that the magnetic double heads should provide. Furthermore, they must be adapted directly to the installation and working conditions in the installations where they are installed. The desired face shapes are achieved by different types of machining, sequentially arranged in order to achieve accurate geometry of the magnetic head face.

In the faces of the magnetic heads there are also working slots, which must have a defined position on the face of the magnetic head itself and with respect to the magnetic tape.

Prior to machining these functionally important surfaces, the magnetic head must be positioned directly or indirectly in the jigs required for said machining.

Indirectly, alignment is carried out in that the optical or mechanical devices used for alignment prior to machining utilize auxiliary surfaces which are somewhat related to the basic elements to which alignment is to be made. Such a reference element is a working slot on the face of the magnetic head, or even some reference surface of the magnetic circuit. Indirect adjustments are always burdened with certain errors, depending on the magnitude of the tolerances of the length or other measures of the basic reference elements from the auxiliary elements or the auxiliary surfaces.

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For direct alignment of the magnetic heads with respect to the basic elements, it is necessary to direct these elements directly.

In the case of working slots as the basic elements of the magnetic heads, the faces must be laboriously glued in order to focus optical devices on the visible contours of the working slots, which are both lengthy and demanding work in both cases. The subsequent grinding of the heads of the magnetic heads greatly deteriorates or makes the visibility of the working slot contours considerably impossible. This makes it impossible to check the shape and the skin during machining, which is disadvantageous.

Solutions are also known in which the exposed parts of the center piece are used for oblique or mechanical alignment. In order to expose, the two edge bushings which enclose the central part must be provided with deep and laborious rectangular recesses. Indeed, if the recesses are other than rectangular, direct control of the depth of the working slots is impossible with these solutions.

Also used are solutions where the two edge bushings carrying the ^H C ^N magnetic circuits have the same height, but considerably different from the height of the central part. They thus form not completely compact mechanical units, advantageous only in certain areas of recording technology.

The above mentioned deficiencies are eliminated by the solution according to the invention whose principle consists in that the middle part (carrying the left and right magnetic circuits form ^W i _(is provided at both its ends odlehčovacíml faces of any shape, defining together the contact surfaces of the left and right housing relief , located on the head of the magnetic head always between the middle part and the left and right housing, in which the left and right parts of the G-shaped magnetic circuits are located. The relief is also located in the opening of the left and right working slot.

The solution according to the invention guarantees magnetic double heads

- 3,248,334 a compact construction where the heights of the sleeves and the middle parts can be identical. The surfaces of these magnetic double heads are without unnecessarily large recesses or protrusions, which facilitates handling of the magnetic tape in the immediate vicinity of the magnetic head. The main advantage of this solution is the possibility of precise and easy focusing on the contours of the working gaps of the magnetic double head, while the possibility of continually checking the depth of the working gaps and the face shape during machining to the basic reference elements are not impaired. The advantage is the simplicity of the solution, where the necessary strain reliefs are carried out only on one part as continuous or only local corner with minimal demands on labor.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front elevational view of a magnetic double-head with a relief of the center piece; FIG. 2 is a plan view of the magnetic double-head; FIG. axonometric representation of the upper part of the central part with relief at the corners only and FIG. 5 shows a continuous relief at the upper part of the central part of the magnetic double head.

The basic embodiment of the magnetic head with the peripheral relief of the center part is shown in elevation in FIG. 1 and in plan view in FIG. 2. The middle part 2 with embedded portions of the left and right magnetic circuits 21, 22 form "I ^M, is clamped between the left casing The left and right housings 24 have built-in left and right portions of the magnetic circuit 31.41 in the shape " ^M ". The central part 2 of the magnetic head 1 is provided with relief pads 24 at the upper and lower portions. lightening 23.

In the figures, the unloading space 23 in all four corners of the central part 2 is continuous, extending from the front

It is then seen from Figure 1 that the upper base 13 of the magnetic head 1 is formed by the upper surfaces 32, 42 of the left and right bushes 18, respectively, and the upper surface 25 of the central part 2. Similarly, the lower base 14 is formed by the lower surfaces 33, 43 of the left t right housing 2 and the lower surface 2b of the middle piece 2, respectively.

FIG. 2 shows a plan view of the magnetic double head components. The outlines of the left and right portions of the magnetic circuit 21, 22 of the ^{M 1} '' magnetic circuit are shown in dotted lines, as well as the outlines of the left ... p>; parts of magnetic circuits li, li shape C ”. A groove 35 ' is formed in the left-hand sleeve J whose reference surface 35a is aligned with the reference surface 31a of the left side of the magnetic circuits 3.1. Analogously in the right housing 8 there is a groove 54 whose reference surface 45a is identical to the reference surface 41a of the right part of the magnetic circuits 46.

A better perception of the position of the grooves 35, 45 is shown in FIG. This is, for example, the clearly visible contact surface 34 of the left housing J and the relief surface 24 formed on both sides of the middle piece 2.

The relief pads 24 may be located at the corners of the central part 2 forming part of the face 15 of the magnetic head 6 and are shown in FIG. 4.

Said relief surfaces 24 may be formed by an upper and a lower front chamfer of the central part 2, as shown in FIG.

The relieving pads 24 of the central piece 2 simply create reliefs 23 by means of which the portion of the contact surface 34 of the left housing J and the portion of the contact surface 44 of the right housing 8 are actually exposed. These abutment surfaces 34, 44 of the left and right housings 11, 8 are in fact a continuation of the respective 5 248 33-5 edges of the working slots 11, 12 of the magnetic head 8.

This makes it possible to direct the optical devices on said exposed portions of the abutment surfaces 34, 44 of the left and right ** housings 4, 4, which are actually identical to the corresponding edges of the working slots 11, 12 of the magnetic head 4 as viewed towards the face 25.

At the same time, the possibility to plan the depths Hj, Hg of the left and right working slots £, 12 of the magnetic head £ is retained. This is facilitated in particular by the grooves 35 '. 45 of the left and right housings 4, 6 in both the upper and lower surfaces 32, 42, 33, 43 of the left and right housings 16 and 16 respectively intersect their profile, onto which optical instruments can be well focused. The focus is on reference surfaces 35a. 45a of the grooves 35, 45 of the left and right bushings 54, 54 which are identical to the reference surfaces 31a. 41a left and right parts of magnetic circuits 31.

C-shaped ^M.

The invention is suitable for use in magnetic double heads of various kinds. In particular, it is suitable for multi-track magnetic heads with digital recording, where the heights of the individual housings of the center part are the same and the magnetic heads thus form compact units even in this respect.

Claims (1)

A magnetic double head, characterized in that the central part (2) supporting the left and right parts of the magnetic circuits (21, 22) of the "1" shape is provided at both its ends with relief pads (24) and defining together with contact surfaces (34, 44) of the left and right bushings (3, 4) of the relief (23) located on the face (15) of the magnetic head (1) ^ between the central part (2) and the left and right bushes (3, 4) respectively. a portion of the C-shaped magnetic circuits (31, 41), wherein the relief (23) is also located in the opening area of the left and right working slots (11, 12) into the upper and lower bases (13, 14) of the magnetic head (1). 3 drawings